A downhole apparatus comprises a housing, a seat mounted in the housing and configured to receive an object such that the object may engage and axially move the seat to operate the downhole apparatus, and a moveable barrier located on one axial side of the seat such that when an object is engaged with the seat a volume is defined between the object and the moveable barrier, wherein the moveable barrier permits said volume to be moved within the apparatus to allow the object to axially move the seat.

A frac plug with a flapper positioned within a shearable housing. More specifically, embodiments are directed towards an upper portion of the shearable housing that is configured to be separated from an insert responsive to flowing back through the frac plug.

A modular pressure cylinder for a downhole tool has an active mandrel tube that supports a modular pressure cylinder. Pistons of the modular pressure cylinder are respectively interconnected and cylinder walls of modular pressure cylinder are respectively interconnected. When fluid is pumped through a tubing string into the downhole tool, the pistons are urged in one direction while the cylinder walls are urged in an opposite direction along an axis of the active mandrel tube.

A releasable tool using an electronic motor to drive a collet and associated collet arms to engage or release a quick change sub that may be coupled to additional downhole tools, such as a perforating gun string.

On a production tubing positioned in a casing string, a bypass adapter is coupled to a packer tool. The bypass adapter comprises an inner mandrel positioned in an inner bore of the packer tool. Injection gas flows between the production tubing and the casing string, through a plurality of ports, in a space located inside the inner bore of the packer tool and outside of the inner mandrel, thus bypassing the packer tool. This injection gas then flows down the outside of a tailpipe located below the packer tool. Fluid produced by the well mixed with this injected gas flows inside the tailpipe, through the inner mandrel, and into the production tubing.

A switch sliding sleeve device for oil-gas exploitation and switching method thereof, an oil-gas exploitation tool and a switching method of a wall through hole thereof are disclosed. The disclosure relates to the technical field of oil-gas exploitation, and solves the technical problems in the prior art that the switching operation steps of a wall through hole of an outer cylinder are tedious and complex, and a large amount of manpower and material resources are consumed. The switch sliding sleeve device for oil-gas exploitation and the oil-gas exploitation tool include an outer cylinder, a switch sliding sleeve mechanism and a trigger. When the trigger is put into the outer cylinder and punching triggers the switch sliding sleeve mechanism, the switch sliding sleeve mechanism is capable of being switched from a state of opening the wall through hole to a state of closing the wall through hole until is triggered by the trigger or another trigger again. The switching method of the wall through hole of the oil-gas exploitation tool includes the following steps: putting a trigger into the outer cylinder to open the wall through hole, and putting the trigger into the outer cylinder again to close the wall through hole. Thus, the switching operation of the wall through hole is facilitated, and the operation cost is reduced.

A squeeze packer (1) assembly incorporates a built-in setting tool which removes the need for a separate setting tool. The packer comprises a body comprising a mandrel (9), a shuttle sleeve (7), and a stinger (2) assembly which is lowered into the wellbore on the end of tubing (102). The shuttle sleeve is housed within the body and incorporates a latch device in the form of a collet comprising a plurality of resilient fingers (14) to releasably connect to the stinger. A ball seat (15) allows hydraulic setting of slips (3). Additional slips (4) can be set by applying tension on the tubing (FIG. 4). Once released, the stinger can open and close the shuttle sleeve by reciprocating in and out of the packer as many times as required during cementing operations.

Valve systems for inserting into casings used in downhole environments are provided. The valve system includes a mandrel, a check valve assembly, and a setting system. The setting system includes a sealing element, a pair of wedges, and a pair of slips, each located on an outer surface of the mandrel. The wedges are separated from each other by the sealing element. Each wedge includes an inner surface configured to slide along the outer surface of the mandrel and an angled surface having a first set of ratchet teeth. The slips are separated from each other by the pair of wedges. Each slip includes an inner surface having a second set of ratchet teeth configured to engage the first set of ratchet teeth. Also, each slip includes an outer surface having gripping elements configured to grip an inner surface of the casing.

Valve systems and methods for inserting into a casing in a downhole environment are provided. A valve system includes a tool mandrel, a check valve assembly, and a setting system. The setting system includes a sealing element, wedges, slips, and a set nut. Each of the wedges and slips includes an inner surface slidable along the outer surface of the tool mandrel. Each wedge includes a primary angled surface and a secondary angled surface. The wedges are located between the slips and the secondary angled surface of one wedge is in contact to the secondary angled surface of the other wedge. Each of the slips includes an outer surface including gripping elements configured to grip an inner surface of the casing. Also, each of the slips includes an angled side surface configured to engage with the primary angled surface of the wedge.

The present disclosure is generally directed to a bottom hole assembly. The bottom hole assembly may include a by-pass valve assembly and a shifting tool assembly positioned downhole from the by-pass valve assembly. The bottom hole assembly may used to hydraulically fracture a wellbore and shift a well tool from a first position to a second position within the wellbore.